Smart Irrigation System for Roses: Enhancing Sustainable Production in Greenhouses through Industry 4.0 and Digital Technologies

Luz Calle-Quispe; Andrea Mori-Novoa; José Velásquez-Costa; Javier Torres-Zavala; Cristina Losada-Gutiérrez

doi:10.1109/CONIITI68560.2025.11366141

Smart Irrigation System for Roses: Enhancing Sustainable Production in Greenhouses through Industry 4.0 and Digital Technologies

Luz Calle-Quispe
, Andrea Mori-Novoa
, José Velásquez-Costa
, Javier Torres-Zavala
, Cristina Losada-Gutiérrez

Universidad Peruana de Ciencias Aplicadas
University of Alcalá

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución a la conferencia › revisión exhaustiva

Resumen

Greenhouse rose production is often affected by inefficient manual irrigation systems, resulting in excessive water consumption and inconsistent flower quality. This research presents the design and validation of a smart irrigation system that integrates Industry 4.0 digital technologies such as IoT sensors, cloud computing, and adaptive control algorithms. The system monitors soil moisture and environmental variables in real time, enabling precise and efficient water application only when necessary. Implemented in a prototype greenhouse, the solution achieved a 32% reduction in water use while maintaining optimal plant growth. The study highlights the potential of data-driven rule-based control (with AI planned), data driven irrigation automation to improve sustainability, reduce human error, and increase productivity in ornamental horticulture, especially for rose growers in developing countries. This approach can be replicated for other ornamental crops and greenhouse settings in water scarce environments.

Idioma original	Inglés
Título de la publicación alojada	2025 11th International Conference on Innovation and Trends in Engineering, CONIITI 2025 - Conference Proceedings
Editorial	Institute of Electrical and Electronics Engineers Inc.
Edición	2025
ISBN (versión digital)	9798331591328
DOI	https://doi.org/10.1109/CONIITI68560.2025.11366141
Estado	Publicada - 2025
Evento	11th International Conference on Innovation and Trends in Engineering, CONIITI 2025 - Bogota, Colombia Duración: 1 oct. 2025 → 3 oct. 2025

Conferencia

Conferencia	11th International Conference on Innovation and Trends in Engineering, CONIITI 2025
País/Territorio	Colombia
Ciudad	Bogota
Período	1/10/25 → 3/10/25

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10.1109/CONIITI68560.2025.11366141

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Calle-Quispe, L., Mori-Novoa, A., Velásquez-Costa, J., Torres-Zavala, J., & Losada-Gutiérrez, C. (2025). Smart Irrigation System for Roses: Enhancing Sustainable Production in Greenhouses through Industry 4.0 and Digital Technologies. En 2025 11th International Conference on Innovation and Trends in Engineering, CONIITI 2025 - Conference Proceedings (2025 ed.). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/CONIITI68560.2025.11366141

Calle-Quispe, Luz ; Mori-Novoa, Andrea ; Velásquez-Costa, José et al. / Smart Irrigation System for Roses : Enhancing Sustainable Production in Greenhouses through Industry 4.0 and Digital Technologies. 2025 11th International Conference on Innovation and Trends in Engineering, CONIITI 2025 - Conference Proceedings. 2025. ed. Institute of Electrical and Electronics Engineers Inc., 2025.

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title = "Smart Irrigation System for Roses: Enhancing Sustainable Production in Greenhouses through Industry 4.0 and Digital Technologies",

abstract = "Greenhouse rose production is often affected by inefficient manual irrigation systems, resulting in excessive water consumption and inconsistent flower quality. This research presents the design and validation of a smart irrigation system that integrates Industry 4.0 digital technologies such as IoT sensors, cloud computing, and adaptive control algorithms. The system monitors soil moisture and environmental variables in real time, enabling precise and efficient water application only when necessary. Implemented in a prototype greenhouse, the solution achieved a 32\% reduction in water use while maintaining optimal plant growth. The study highlights the potential of data-driven rule-based control (with AI planned), data driven irrigation automation to improve sustainability, reduce human error, and increase productivity in ornamental horticulture, especially for rose growers in developing countries. This approach can be replicated for other ornamental crops and greenhouse settings in water scarce environments.",

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Calle-Quispe, L, Mori-Novoa, A, Velásquez-Costa, J, Torres-Zavala, J & Losada-Gutiérrez, C 2025, Smart Irrigation System for Roses: Enhancing Sustainable Production in Greenhouses through Industry 4.0 and Digital Technologies. En 2025 11th International Conference on Innovation and Trends in Engineering, CONIITI 2025 - Conference Proceedings. 2025 ed., Institute of Electrical and Electronics Engineers Inc., 11th International Conference on Innovation and Trends in Engineering, CONIITI 2025, Bogota, Colombia, 1/10/25. https://doi.org/10.1109/CONIITI68560.2025.11366141

Smart Irrigation System for Roses: Enhancing Sustainable Production in Greenhouses through Industry 4.0 and Digital Technologies. / Calle-Quispe, Luz; Mori-Novoa, Andrea; Velásquez-Costa, José et al.
2025 11th International Conference on Innovation and Trends in Engineering, CONIITI 2025 - Conference Proceedings. 2025. ed. Institute of Electrical and Electronics Engineers Inc., 2025.

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución a la conferencia › revisión exhaustiva

TY - GEN

T1 - Smart Irrigation System for Roses

T2 - 11th International Conference on Innovation and Trends in Engineering, CONIITI 2025

AU - Calle-Quispe, Luz

AU - Mori-Novoa, Andrea

AU - Velásquez-Costa, José

AU - Torres-Zavala, Javier

AU - Losada-Gutiérrez, Cristina

PY - 2025

Y1 - 2025

N2 - Greenhouse rose production is often affected by inefficient manual irrigation systems, resulting in excessive water consumption and inconsistent flower quality. This research presents the design and validation of a smart irrigation system that integrates Industry 4.0 digital technologies such as IoT sensors, cloud computing, and adaptive control algorithms. The system monitors soil moisture and environmental variables in real time, enabling precise and efficient water application only when necessary. Implemented in a prototype greenhouse, the solution achieved a 32% reduction in water use while maintaining optimal plant growth. The study highlights the potential of data-driven rule-based control (with AI planned), data driven irrigation automation to improve sustainability, reduce human error, and increase productivity in ornamental horticulture, especially for rose growers in developing countries. This approach can be replicated for other ornamental crops and greenhouse settings in water scarce environments.

AB - Greenhouse rose production is often affected by inefficient manual irrigation systems, resulting in excessive water consumption and inconsistent flower quality. This research presents the design and validation of a smart irrigation system that integrates Industry 4.0 digital technologies such as IoT sensors, cloud computing, and adaptive control algorithms. The system monitors soil moisture and environmental variables in real time, enabling precise and efficient water application only when necessary. Implemented in a prototype greenhouse, the solution achieved a 32% reduction in water use while maintaining optimal plant growth. The study highlights the potential of data-driven rule-based control (with AI planned), data driven irrigation automation to improve sustainability, reduce human error, and increase productivity in ornamental horticulture, especially for rose growers in developing countries. This approach can be replicated for other ornamental crops and greenhouse settings in water scarce environments.

KW - Developing countries

KW - Industry 4.0

KW - Precision agriculture

KW - Rose cultivation

KW - Smart irrigation

KW - Sustainable greenhouse production

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DO - 10.1109/CONIITI68560.2025.11366141

M3 - Contribución a la conferencia

AN - SCOPUS:105033884158

BT - 2025 11th International Conference on Innovation and Trends in Engineering, CONIITI 2025 - Conference Proceedings

PB - Institute of Electrical and Electronics Engineers Inc.

Y2 - 1 October 2025 through 3 October 2025

ER -

Calle-Quispe L, Mori-Novoa A, Velásquez-Costa J, Torres-Zavala J, Losada-Gutiérrez C. Smart Irrigation System for Roses: Enhancing Sustainable Production in Greenhouses through Industry 4.0 and Digital Technologies. En 2025 11th International Conference on Innovation and Trends in Engineering, CONIITI 2025 - Conference Proceedings. 2025 ed. Institute of Electrical and Electronics Engineers Inc. 2025 doi: 10.1109/CONIITI68560.2025.11366141

Smart Irrigation System for Roses: Enhancing Sustainable Production in Greenhouses through Industry 4.0 and Digital Technologies

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